#ifndef APEXCOMMONSTRUCTS_H
#define APEXCOMMONSTRUCTS_H

#include <PxPreprocessor.h>
#include "PxAssert.h"
#include "PxMat44.h"


using namespace physx;

/*
From APEX
*/

struct IntPair
{
	void	set(int32_t _i0, int32_t _i1)
	{
		i0 = _i0;
		i1 = _i1;
	}

	int32_t	i0, i1;

	static	int	compare(const void* a, const void* b)
	{
		const int32_t diff0 = ((IntPair*)a)->i0 - ((IntPair*)b)->i0;
		return diff0 ? diff0 : (((IntPair*)a)->i1 - ((IntPair*)b)->i1);
	}
};

struct RenderVertexSemantic
{
	/**
	\brief Enum of vertex buffer semantics types
	*/
	enum Enum
	{
		CUSTOM = -1,			//!< User-defined

		POSITION = 0,			//!< Position of vertex
		NORMAL,					//!< Normal at vertex
		TANGENT,				//!< Tangent at vertex
		BINORMAL,				//!< Binormal at vertex
		COLOR,					//!< Color at vertex
		TEXCOORD0,				//!< Texture coord 0 of vertex
		TEXCOORD1,				//!< Texture coord 1 of vertex
		TEXCOORD2,				//!< Texture coord 2 of vertex
		TEXCOORD3,				//!< Texture coord 3 of vertex
		BONE_INDEX,				//!< Bone index of vertex
		BONE_WEIGHT,			//!< Bone weight of vertex

		DISPLACEMENT_TEXCOORD,	//!< X Displacement map texture coord of vertex
		DISPLACEMENT_FLAGS,		//!< Displacement map flags of vertex

		NUM_SEMANTICS			//!< Count of standard semantics, not a valid semantic
	};
};

namespace nvidia
{
	namespace apex
	{

		PX_PUSH_PACK_DEFAULT

			/**
			\brief Enumeration of possible formats of various buffer semantics

			N.B.: DO NOT CHANGE THE VALUES OF OLD FORMATS.
			*/
			struct RenderDataFormat
		{
			/** \brief the enum type */
			enum Enum
			{
				UNSPECIFIED = 0,	//!< No format (semantic not used)

									//!< Integer formats
									UBYTE1 = 1,	//!< One unsigned 8-bit integer (uint8_t[1])
									UBYTE2 = 2,	//!< Two unsigned 8-bit integers (uint8_t[2])
									UBYTE3 = 3,	//!< Three unsigned 8-bit integers (uint8_t[3])
									UBYTE4 = 4,	//!< Four unsigned 8-bit integers (uint8_t[4])

									USHORT1 = 5,	//!< One unsigned 16-bit integer (uint16_t[1])
									USHORT2 = 6,	//!< Two unsigned 16-bit integers (uint16_t[2])
									USHORT3 = 7,	//!< Three unsigned 16-bit integers (uint16_t[3])
									USHORT4 = 8,	//!< Four unsigned 16-bit integers (uint16_t[4])

									SHORT1 = 9,	//!< One signed 16-bit integer (int16_t[1])
									SHORT2 = 10,	//!< Two signed 16-bit integers (int16_t[2])
									SHORT3 = 11,	//!< Three signed 16-bit integers (int16_t[3])
									SHORT4 = 12,	//!< Four signed 16-bit integers (int16_t[4])

									UINT1 = 13,	//!< One unsigned integer (uint32_t[1])
									UINT2 = 14,	//!< Two unsigned integers (uint32_t[2])
									UINT3 = 15,	//!< Three unsigned integers (uint32_t[3])
									UINT4 = 16,	//!< Four unsigned integers (uint32_t[4])

												//!< Color formats
												R8G8B8A8 = 17,	//!< Four unsigned bytes (uint8_t[4]) representing red, green, blue, alpha
												B8G8R8A8 = 18,	//!< Four unsigned bytes (uint8_t[4]) representing blue, green, red, alpha
												R32G32B32A32_FLOAT = 19,	//!< Four floats (float[4]) representing red, green, blue, alpha
												B32G32R32A32_FLOAT = 20,	//!< Four floats (float[4]) representing blue, green, red, alpha

																			//!< Normalized formats
																			BYTE_UNORM1 = 21,	//!< One unsigned normalized value in the range [0,1], packed into 8 bits (uint8_t[1])
																			BYTE_UNORM2 = 22,	//!< Two unsigned normalized value in the range [0,1], each packed into 8 bits (uint8_t[2])
																			BYTE_UNORM3 = 23,	//!< Three unsigned normalized value in the range [0,1], each packed into bits (uint8_t[3])
																			BYTE_UNORM4 = 24,	//!< Four unsigned normalized value in the range [0,1], each packed into 8 bits (uint8_t[4])

																			SHORT_UNORM1 = 25,	//!< One unsigned normalized value in the range [0,1], packed into 16 bits (uint16_t[1])
																			SHORT_UNORM2 = 26,	//!< Two unsigned normalized value in the range [0,1], each packed into 16 bits (uint16_t[2])
																			SHORT_UNORM3 = 27,	//!< Three unsigned normalized value in the range [0,1], each packed into 16 bits (uint16_t[3])
																			SHORT_UNORM4 = 28,	//!< Four unsigned normalized value in the range [0,1], each packed into 16 bits (uint16_t[4])

																			BYTE_SNORM1 = 29,	//!< One signed normalized value in the range [-1,1], packed into 8 bits (uint8_t[1])
																			BYTE_SNORM2 = 30,	//!< Two signed normalized value in the range [-1,1], each packed into 8 bits (uint8_t[2])
																			BYTE_SNORM3 = 31,	//!< Three signed normalized value in the range [-1,1], each packed into bits (uint8_t[3])
																			BYTE_SNORM4 = 32,	//!< Four signed normalized value in the range [-1,1], each packed into 8 bits (uint8_t[4])

																			SHORT_SNORM1 = 33,	//!< One signed normalized value in the range [-1,1], packed into 16 bits (uint16_t[1])
																			SHORT_SNORM2 = 34,	//!< Two signed normalized value in the range [-1,1], each packed into 16 bits (uint16_t[2])
																			SHORT_SNORM3 = 35,	//!< Three signed normalized value in the range [-1,1], each packed into 16 bits (uint16_t[3])
																			SHORT_SNORM4 = 36,	//!< Four signed normalized value in the range [-1,1], each packed into 16 bits (uint16_t[4])

																								//!< Float formats
																								HALF1 = 37,	//!< One 16-bit floating point value
																								HALF2 = 38,	//!< Two 16-bit floating point values
																								HALF3 = 39,	//!< Three 16-bit floating point values
																								HALF4 = 40,	//!< Four 16-bit floating point values

																								FLOAT1 = 41,	//!< One 32-bit floating point value
																								FLOAT2 = 42,	//!< Two 32-bit floating point values
																								FLOAT3 = 43,	//!< Three 32-bit floating point values
																								FLOAT4 = 44,	//!< Four 32-bit floating point values

																								FLOAT4x4 = 45,	//!< A 4x4 matrix (see PxMat44)
																								FLOAT3x4 = 46,	//!< A 3x4 matrix (see float[12])
																								FLOAT3x3 = 47,	//!< A 3x3 matrix (see PxMat33)

																								FLOAT4_QUAT = 48,	//!< A quaternion (see PxQuat)
																								BYTE_SNORM4_QUATXYZW = 49,	//!< A normalized quaternion with signed byte elements, X,Y,Z,W format (uint8_t[4])
																								SHORT_SNORM4_QUATXYZW = 50,	//!< A normalized quaternion with signed short elements, X,Y,Z,W format (uint16_t[4])

																								NUM_FORMATS
			};

			/// Get byte size of format type
			static PX_INLINE uint32_t getFormatDataSize(Enum format)
			{
				switch (format)
				{
				default:
					PX_ALWAYS_ASSERT();
				case UNSPECIFIED:
					return 0;

				case UBYTE1:
				case BYTE_UNORM1:
				case BYTE_SNORM1:
					return sizeof(uint8_t);
				case UBYTE2:
				case BYTE_UNORM2:
				case BYTE_SNORM2:
					return sizeof(uint8_t) * 2;
				case UBYTE3:
				case BYTE_UNORM3:
				case BYTE_SNORM3:
					return sizeof(uint8_t) * 3;
				case UBYTE4:
				case BYTE_UNORM4:
				case BYTE_SNORM4:
				case BYTE_SNORM4_QUATXYZW:
					return sizeof(uint8_t) * 4;

				case USHORT1:
				case SHORT1:
				case HALF1:
				case SHORT_UNORM1:
				case SHORT_SNORM1:
					return sizeof(uint16_t);
				case USHORT2:
				case SHORT2:
				case HALF2:
				case SHORT_UNORM2:
				case SHORT_SNORM2:
					return sizeof(uint16_t) * 2;
				case USHORT3:
				case SHORT3:
				case HALF3:
				case SHORT_UNORM3:
				case SHORT_SNORM3:
					return sizeof(uint16_t) * 3;
				case USHORT4:
				case SHORT4:
				case HALF4:
				case SHORT_UNORM4:
				case SHORT_SNORM4:
				case SHORT_SNORM4_QUATXYZW:
					return sizeof(uint16_t) * 4;

				case UINT1:
					return sizeof(uint32_t);
				case UINT2:
					return sizeof(uint32_t) * 2;
				case UINT3:
					return sizeof(uint32_t) * 3;
				case UINT4:
					return sizeof(uint32_t) * 4;

				case R8G8B8A8:
				case B8G8R8A8:
					return sizeof(uint8_t) * 4;

				case R32G32B32A32_FLOAT:
				case B32G32R32A32_FLOAT:
					return sizeof(float) * 4;

				case FLOAT1:
					return sizeof(float);
				case FLOAT2:
					return sizeof(float) * 2;
				case FLOAT3:
					return sizeof(float) * 3;
				case FLOAT4:
					return sizeof(float) * 4;

				case FLOAT4x4:
					return sizeof(PxMat44);

				case FLOAT3x4:
					return sizeof(float) * 12;

				case FLOAT3x3:
					return sizeof(PxMat33);

				case FLOAT4_QUAT:
					return sizeof(PxQuat);
				}
			}
		};

		PX_POP_PACK

	}
} // end namespace nvidia::apex



#endif